Secure Boot Device

1. An electronic device, comprising: a power supply unit; a control unit that outputs a boot signal for causing said power supply unit to start supplying power; a first boot circuit that interconnects said power supply unit and said control unit for transmitting said boot signal; and a data encryption unit for interconnecting said power supply unit and said control unit so as to form a second boot circuit through which said boot signal is transmitted and for cutting off said first boot circuit.

2. The electronic device as claimed in claim 1 , wherein said first boot circuit is provided with a safety fuse, said electronic device further comprising a voltage source, said data encryption unit being connected to said voltage source, wherein, when said data encryption unit interconnects said power supply unit and said control unit, said voltage source is grounded via said safety fuse, causing said safety fuse to overheat and burn out, thereby cutting off said first boot circuit.

3. The electronic device as claimed in claim 2 , wherein: said power supply unit includes a power supply device and a determining circuit, and said first boot circuit interconnects said control unit and said determining circuit; said determining circuit is provided with a first input terminal connected to said first boot circuit and said voltage source, and a second input terminal connected to said voltage source; wherein, when said data encryption unit has yet to interconnect said power supply unit and said control unit, said boot signal applies a bias voltage to said first input terminal via said first boot circuit, causing a voltage at said first input terminal to be at a first potential, and said voltage source causes a voltage at said second input terminal to be at a second potential, thereby causing said determining circuit to control said power supply device to supply power; and wherein, when said data encryption unit interconnects said power supply unit and said control unit, and said first boot circuit is cut off, said voltage source causes the voltage at said first input terminal to be at the second potential, and said boot signal applies a bias voltage to said second input terminal via said second boot circuit, causing the voltage at said second input terminal to be at the first potential, thereby causing said determining circuit to control said power supply device to supply power.

4. The electronic device as claimed in claim 3 , wherein when said data encryption unit is removed after said first boot circuit has been cut off, said second boot circuit is cut off, and said voltage source applies a bias voltage to said second input terminal in order to change the voltage of said second input terminal to the second potential, the second potential at each of said first and second terminals causing said determining circuit to control said power supply device to stop supplying power.

5. The electronic device as claimed in claim 4 , wherein said determining circuit is an AND logic gate, the first potential is a low voltage potential, and the second potential is a high voltage potential.

6. The electronic device as claimed in claim 5 , wherein said electronic device is a computer capable of storing electronic data, and said data encryption unit is a daughter card capable of supporting Trusted Platform Module (TPM) function.

7. The electronic device as claimed in claim 5 , wherein said electronic device is a computer capable of storing electronic data, and said data encryption unit is a circuit board capable of supporting Trusted Platform Module (TPM) function.

8. The electronic device as claimed in claim 1 , wherein: said power supply unit includes a power supply device and a determining circuit, said first boot circuit interconnects said control unit and said determining circuit, and said electronic device further comprises a voltage source; said determining circuit is provided with a first input terminal connected to said first boot circuit and said voltage source, and a second input terminal connected to said voltage source; wherein, when said data encryption unit has yet to interconnect said power supply unit and said control unit, said boot signal applies a bias voltage to said first input terminal via said first boot circuit, causing a voltage at said first input terminal to be at a first potential, and said voltage source causes a voltage at said second input terminal to be at a second potential, thereby causing said determining circuit to control said power supply device to supply power; and wherein, when said data encryption unit interconnects said power supply unit and said control unit, and said first boot circuit is cut off, said voltage source causes the voltage at said first input terminal to be at the second potential, and said boot signal applies a bias voltage to said second input terminal via said second boot circuit, causing the voltage at said second input terminal to be at the first potential, thereby causing said determining circuit to control said power supply device to supply power.

9. The electronic device as claimed in claim 1 , wherein, said electronic device is a computer capable of storing electronic data, and said data encryption unit is a circuit board capable of supporting Trusted Platform Module function.

10. The electronic device as claimed in claim 1 , wherein said electronic device is a computer capable of storing electronic data, and said data encryption unit is a daughter card capable of supporting Trusted Platform Module function.